Estimation of the vertically integrated leaf nitrogen content in maize using canopy hyperspectral red edge parameters
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Estimation of the vertically integrated leaf nitrogen content in maize using canopy hyperspectral red edge parameters Pengfei Wen1,2 · Zujiao Shi1 · Ao Li1 · Fang Ning1 · Yuanhong Zhang1 · Rui Wang1 · Jun Li1 Accepted: 20 October 2020 © Springer Science+Business Media, LLC, part of Springer Nature 2020
Abstract Real-time monitoring of leaf nitrogen (N) content by remote sensing can accurately diagnose crop nutrient status and facilitate precision N management. However, the methods used to estimate of vertically integrated leaf N content do not consider different cropping systems, in which the maize growth stages are not synchronized, resulting in decreased practical value of the results. The purpose of this study was to propose an optimized rededge absorption area (OREA) index in which the prediction accuracy of vertically integrated leaf N content is improved within spring- and summer-sown maize canopies. The results showed that vertical distributions of N existed regardless of variations in the maize growth stages, that is, the leaf N density of the upper and middle layers was higher than that of the lower layers. These published vegetation indices (VIs) provided relatively good correlations with leaf N density at different layers across all of the datasets. When predicting leaf N density of each leaf layer, an optimal VI is generated, and inconsistent VIs will limit its practical application. To further overcome the drawbacks of the inconsistency of each VI when estimating the leaf N density at different layers, a new OREA index was proposed based on red-edge absorption area parameter. The OREA index showed the highest prediction accuracy with leaf N density for entire canopies (r2 = 0.811, RMSE = 0.374, RE = 13.17%) and canopies without top first leaves (r2 = 0.795, RMSE = 0.269, RE = 15.20%) compared with the other published VIs. It is concluded that the vertically integrated leaf N content under different field experiments can be accurately estimated by the OREA index. Keywords Maize · Leaf nitrogen density · Vertical layers · Optimized red-edge absorption area index
Electronic supplementary material The online version of this article (https://doi.org/10.1007/s1111 9-020-09769-5) contains supplementary material, which is available to authorized users. * Jun Li [email protected] 1
College of Agronomy, Northwest A&F University, Yang Ling, Xianyang 712100, PR China
2
College of Agronomy, Henan Agricultural University, Zhengzhou 450046, PR China
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Precision Agriculture
Introduction Nitrogen (N) is an essential mineral nutrient known to enhance photosynthetic capacity and improve crop yield (Feng et al. 2014; Li et al. 2014a). Therefore, dynamic monitoring of crop nutrition status during the growing season is important for the evaluation of plant health status, which provides an opportunity to optimize crop management strategies at the correct place and time (Huang et al. 2011; Huang et al. 2014; He et al. 2016). However, traditional chemical analysis methods for crop fol
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